|
姓名 |
石贤萌 |
部门 |
生物科学 |
职称 |
讲师 |
职务 |
教师 |
荣誉 |
中国科学院知识产权专员,商丘师范学院双师双能型教师 |
研究方向 |
生态学 |
办公地址 |
15vip太阳集团105室 |
联系电话 |
|
电子邮件 |
shxm2012@foxmail.com |
一、个人简介
石贤萌,男,博士,讲师,中国农工党党员。研究领域为森林生态学,以第一和联合作者身份发表学术论文二十余篇。主持河南省自然科学基金等项目3项,参与国家自然科学基金7项,横向项目3项。
二、教育背景
2008-2012年,商丘师范学院,生物科学专业,学士;
2012-2019年,中国科学院大学,生态学专业,博士。
三、主讲课程和承担的教研项目
1、主讲《普通生态学》和《普通生态学实验》等课程。
四、承担的科研项目
主持项目:
[1]河南省自然科学基金青年项目:基于共生蓝细菌的附生苔藓氮平衡策略及其作用机制(222300420257),5万元,主持,2022.01-2023.12。
[2]商丘师范学院博士科研启动项目:申甘林带刺槐-根瘤菌共生固氮的时空特征及其生态适应机制,15万元,主持,2019.07-2022.06。
[3]柘城县林业发展服务中心横向项目:柘城容湖国家湿地公园水质监测,5万元,主持,2020.05-2021.05。
参与项目:
[1]国家自然科学基金面上项目,附生植物种间相互作用及其生理生化基础——基于哀牢山山地湿性常绿阔叶林(31872685),2019.01-2022.12。
[2]国家自然科学基金面上项目,光照调控附生植物空间分布格局的生理生态学研究——基于受损常绿阔叶林(31770494),2018.01-2021.12。
[3]国家自然科学基金面上项目,附生植物的水分关系及其对水分胁迫的响应——以哀牢山湿性常绿阔叶林为例(31670452),2017.01-2020.12。
[4]国家自然科学基金青年项目,哀牢山亚热带常绿阔叶林土壤呼吸组份对气候变暖的响应研究(31600390),2017.01-2019.12。
[5]国家自然科学基金面上项目,山地湿性常绿阔叶林附生植物的生物固氮及其对环境变化的响应(41471050),2015.01-2018.12。
[6]国家自然科学基金青年项目,山地湿性常绿阔叶林附生叶状地衣对环境变化的形态和生理响应机制(31400384),2015.01-2017.12。
[7]国家自然科学基金青年项目,山地湿性常绿阔叶林附生苔藓对模拟氮沉降增加的生理生化响应(31300382),2014.01-2016.12。
[8]海南省林业厅横向项目,海南热带雨林国家公园内橡胶林科学处置方法与技术研发与示范,83万元,2022.06-2023.06。
[9]上海自善文化发展有限公司横向项目,勐仑中学热带雨林生态恢复试点项目,30万元,2022-2024。
[10]四川贡嘎山国家级自然保护区横向项目,海螺沟冰川退却区不同演替阶段植物多样性与生态系统服务功能的演变规律,22.7万元,2021-2023。
五、论文和专利
[1]Shi, X.M.#, Qi, J.H.#, Liu, A.X., Zakari, S., Song, L.*,2023. Leaf phenotypic plasticity coupled with integration facilitates the adaptation of plants to enhanced N deposition.Environmental Pollution. 327, 121570.(TOP 10%)
[2]Shi, X.M.#, Liu, S.#, Song, L.*, Wu, C.S., Yang, B., Lu, H.Z., Wang, X., Zakari, S., 2022. Contamination and source-specific risk analysis of soil heavy metals in a typical coal industrial city, central China.Science of the Total Environment. 836, 155694.(TOP 10%)
[3]Shi, X.M.,Song, L.*,Liu, W.Y., Lu H.Z., Qi J.H., Li S., Chen, X., Wu, J.F., Liu, S., Wu, C.S., 2017. Epiphytic bryophytes as bio-indicators of atmospheric nitrogen deposition in a subtropical montane cloud forest:Response patterns, mechanism, and critical load.Environmental Pollution,229, 932–941.(TOP 10%)
[4]Liu, S., Bu, M.L., Li, Y.,Shi, X.M.*, Huang, C.J., Wen, H.D., Liu, Y.T., Wu, C.S.*,2023. Regulation of initial soil environmental factors on litter decomposition rate affects the estimation accuracy of litter mass loss in a subtropical forest.Plant andSoil,485, 395–410.(TOP 10%)
[5]石贤萌#,杞金华#,宋亮*,刘文耀,黄俊彪,李苏,卢华正,陈曦,2015.哀牢山中山湿性常绿阔叶林两种优势幼苗C、N、P化学计量特征及其对N沉降增加的响应.植物生态学报, (10): 962-970.
[6]Yuan, Y.C., Zhang, H.C.,Shi, X.M., Han, Y.N., Liu, Y.*, Jin, S.H.*, 2023. Effect ofsimulated organic–inorganic N deposition on leaf stoichiometry, chlorophyll content, and chlorophyll fluorescence inTorreya grandis.Horticulturae, 9, 1042.
[7]Hu, H.X., Mo, Y.X., Shen, T., Wu, Y.,Shi, X.M., Ai, Y.Y., Lu, H.Z., Zakari, S., Li, S.*, Song, L.*, 2022. Simulated high-intensity phorophyte removal mitigates the robustness of epiphyte community and destroys commensal network structure.Forest Ecology and Management, 526, 120586.
[8]Huang, J., Yuan, B.D., Zhong, H.M.,Shi, X.M., Yang, B., Peng, J.C., Yang, C.Z.*, 2022. The complete mitochondrial genome of theRiparia riparia(Passeriformes: Hirundinidae).Mitochondrial DNA Part B, 7, 1191–1193.
[9]Fan, X.Y., Liu, W.Y.*, Song, L., Liu, S.,Shi, X.M., Yuan, G.D., 2020. A combination of morphological and photosynthetic functional traits maintains the vertical distribution of bryophytes in a subtropical cloud forest.American Journal of Botany, 107, 761-772.
[10]Huang, J.B., Liu, W.Y.*, Li, S., Song, L., Lu, H.Z.,Shi, X.M., Chen, X., Hu, T., Liu, S., Liu, T., 2019. Ecological stoichiometry of the epiphyte community in a subtropical forest canopy.Ecology and Evolution, 9, 14394-14406.
[11]Li, S.*, Liu, W.Y.*,Shi, X.M., Liu, S., Hu, T., Song, L.,Lu, H.Z., Chen, X., Wu, C.S.,2019. Non-dominant trees significantly enhance species richness of epiphytic lichens in subtropical forests of southwest China.Fungal Ecology, 37, 10-18.
[12]Liu, S., Liu, W.Y.*,Shi, X.M., Li, S., Hu, T., Song, L., Wu, C.S., 2018. Dry-hot stress significantly reduced the nitrogenase activity of epiphytic cyanolichen.Science of the Total Environment, 619-620, 630-637.
[13]Li, S.*, Liu, S.,Shi, X.M., Liu, W.Y.*, Song, L., Lu, H.Z., Chen, X., Wu, C.S., 2017.Forest type and tree characteristics determine the vertical distribution of epiphytic lichen biomass in subtropical forests.Forests,8, 436.
[14]Song, L.#*,Lu, H.Z.#, Xu, X.L., Li, S.,Shi, X.M., Chen, X., Wu Y., Huang, J.B., Chen, Q., Liu, S., Wu, C.S., Liu, W.Y.*, 2016.Organic nitrogen uptake is a significant contributor to nitrogen economy of subtropical epiphytic bryophytes.Scientific Reports, 6, 30408.
[15]Lu, H.Z.#, Song, L.#, Liu, W.Y.*, Xu, X.L., Hu, Y.H.,Shi, X.M., Li, S., Ma, W.Z., Chang, Y.F., Fan, Z.X., Wu, Y., Lu, S.G., Yu, F.H.*, 2016.Survival depends on resource sharing: evidence from epiphytic ferns in a subtropical montane moist forest.Frontiers in Plant Science, 7, 416.
[16]Chen, X., Liu, W.Y.*, Song, L., Li, S., Wu, Y.,Shi, X.M., Huang, J.B., Wu, C.S., 2016. Physiological responses of two epiphytic bryophytes to Nitrogen, Phosphorus and Sulfur addition in a subtropical montane cloud forest.PLoS ONE, 11, e0161492.
[17]Li, S., Liu, W.Y.*, Li, D.W., Song, L.,Shi, X.M., Lu, H.Z., 2015. Species richness and vertical stratification of epiphytic lichens in subtropical primary and secondary forests in southwest China.Fungal Ecology, 17, 30-40.
[18]Song, L.*, Zhang, Y. J., Chen, X., Li, S., Lu, H. Z., Wu, C. S., Tan, Z.H., Liu, W.Y.*,Shi, X.M., 2015. Water relations and gas exchange of fan bryophytes and their adaptations to microhabitats in an Asian subtropical montane cloud forest.Journal of Plant Research, 128(4), 573-584.
[19]李苏*,柳帅,刘文耀,石贤萌,宋亮,武传胜, 2018.亚热带常绿阔叶林附生地衣凋落物的物种多样性和生物量的边缘效应.菌物学报,37,919–930.
[20]袁国迪,刘文耀,石贤萌,范晓阳,2018.哀牢山湿性常绿阔叶林树干4种附生苔藓植物的水分变化对光合、荧光参数的影响.植物科学学报,36(04):603–611.
[21]裴凤娟,宋亮,刘文耀*,黄俊彪,石贤萌,姚元林,陈克, 2017.云南树干附生苔藓生物量沿纬度及海拔梯度的变化特征.亚热带植物科学, 46, 30–37.
[22]吴毅,刘文耀,宋亮,陈曦,卢华正,李苏,石贤萌,2016.基于林冠塔吊的附生植物生态学研究进展.植物生态学报, 40(05):508–522.
[23]李苏,刘文耀*,石贤萌,柳帅,胡涛,黄俊彪,陈曦,宋亮,武传胜, 2015.亚热带森林系统4种附生蓝藻地衣的分布对生境变化的响应.植物生态学报, 39, 217–228.
[24]一种高效式生物学细胞培养器,CN202110113936.5,发明授权。发明人:韩霜;张可慧;张庆琛;石贤萌;白军令。
[25]一种野外采样仪器简易灭菌装置,CN211244708U,实用新型。发明人:郑爱珍;李智;李任;蔡献荣;石贤萌;邵璇;宋唯一;李好君;刘红;吴玲玲。
[26]一种液氮添加装置,CN210729575U,实用新型。发明人:郑爱珍;石贤萌;蔡献荣;李智;涂智利;吴玲玲。
[27]一种榕树融合扦插繁殖技术及其在热带森林生态修复中的应用,发明公开。发明人:宋亮;代倩;李彦昌;石贤萌;莫雨轩;邹璜;袁浩。